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以532 nm皮秒脉冲作抽运光,采用单光束Z-扫描技术对具有激发态分子内质子转移效应的有机分子2-(2'-羟基苯基)苯并噻唑(HBT)在其双光子吸收区的非线性光学特性进行了研究.实验结果表明,对532 nm波长的光,HBT分子存在明显的双光子吸收.通过拟合开孔Z-扫描实验数据,求解了HBT分子在其双光子吸收区的非线性吸收系数,并探讨了抽运光强度对介质双光子吸收效应的影响.采用高斯分解法,通过拟合闭孔Z-扫描除以开孔Z-扫描数据,理论推
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关键词:
- 2-(2'-羟基苯基)苯并噻唑(HBT) /
- 激发态分子内质子转移 /
- 双光子吸收 /
- 非线性光学特性
The optical nonlinearity, including the nonlinear absorption, the nonlinear refraction and the third-order nonlinear polarizability of 2-(2'-hydroxyphenyl)benzothiazole (HBT) in cyclohexane, has been investigated using a single-beam Z-scan technique. The experiment and calculations show that HBT molecules have obvious two-photon absorption (TPA) effect under the 532 nm picosecond pulsed laser irradiation. The values of the TPA coefficient β0 for different pulse irradiance and the corresponding imaginary part χ(3)I of the third-order nonlinear polarizability were determined according to the open-aperture Z-scan results. Then we measured the nonlinear refractive index γ and the real part χ(3)R of the third-order nonlinear polarizability of HBT, and calculated these two nonlinear parameters with "Gaussian decomposition" method according to the close-aperture Z-scan and open-aperture Z-scan results, when the nonlinear refraction was accompanied by nonlinear absorption. The theoretical results agree very well with the experimental results. This work provides a theoretical as well as a experimental basis for further research and development of the application of the material.-
Keywords:
- 2-(2'-hydroxyphenyl)benzothiazole (HBT) /
- excited state intramolecular proton transfer(ESIPT) /
- two-photon absorption /
- optical nonlinearity
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[15] Balamurali M M, Dogra S K 2002 J. Photoch. Photobio. A 154 81
[16] Mahanta S, Singh R B, Nath D, Guchhait N 2008 J. Photoch. Photobio. A 197 62
[17] Zheng J J, Guo Y X, Li X P, Zhang G L, Chen W J 2006 J. Opt. A: Pure Appl. Opt. 8 835
[18] Zheng J J, Zhang G L, Wu F, Ma L N, Chen W J 2008 Spectrosc. Spect. Anal. 28 970 (in Chinese) [郑加金、张桂兰、吴 峰、马丽娜、陈文驹 2008 光谱学与光谱分析 28 970]
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[1] Madsena D, Stenger J, Dreyer J, Nibbering E T J, Hamm P, Elsaesser T 2001 Chem. Phys. Lett. 341 56
[2] Oncul S, Demchenko A P 2006 Spectrochim. Acta A 65 179
[3] Balamurali M M, Dogra S K 2004 Chem. Phys. 305 95
[4] Feng W, Yi W H, Feng Y Y, Wu Z G, Zhang Z Z 2006 Acta Phys. Sin. 55 3772 (in Chinese) [封 伟、易文辉、冯奕钰、吴子刚、张振中 2006 物理学报 55 3772]
[5] Zheng J J, Zhang G L, Guo Y X, Li X P, Chen W J 2007 Chin. Phys. 16 1047
[6] Gao C, Xiao Q, Qiu S J, Hou C Q, Xu P P, Liu J Q 2009 Acta Phys. Sin. 58 3579 (in Chinese) [高 潮、肖 奇、邱少君、侯超奇、许培培、刘建群 2009 物理学报 58 3579]
[7] Nunes R M D, Arnaut L G, Solntsev K M, Tolbert L M, Formosinho S J 2005 J. Am. Chem. Soc. 127 11890
[8] Basaric N, Wan P 2006 Photochem. Photobiol. 5 656
[9] Mondal S K, Ghosh S, Sahu K, Sen P, Bhattacharyya K 2007 J. Chem. Sci. 119 71
[10] Nie D, Bian Z, Yu A, Chen Z, Liu Z, Huang C 2008 Chem. Phys. 348 181
[11] Fukuda M, Terazima M, Kimura Y 2008 Chem. Phys. Lett. 463 364
[12] Wang R, Liu D, Xu K, Li J 2009 Photochem. Photobiol. A 205 61
[13] Chaudhuri S, Pahari B, Sengupta P K 2009 Biophys. Chem. 139 29
[14] Sheik-Bahae M, Said A A, Wei T H, Hagan D J, van Stryland E W 1990 IEEE J. Quantum Elect. 26 760
[15] Balamurali M M, Dogra S K 2002 J. Photoch. Photobio. A 154 81
[16] Mahanta S, Singh R B, Nath D, Guchhait N 2008 J. Photoch. Photobio. A 197 62
[17] Zheng J J, Guo Y X, Li X P, Zhang G L, Chen W J 2006 J. Opt. A: Pure Appl. Opt. 8 835
[18] Zheng J J, Zhang G L, Wu F, Ma L N, Chen W J 2008 Spectrosc. Spect. Anal. 28 970 (in Chinese) [郑加金、张桂兰、吴 峰、马丽娜、陈文驹 2008 光谱学与光谱分析 28 970]
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